Title :
Reaching Law Control for DC Motor Discrete Time Speed Control System
Author :
Kun, Qian ; Xiangping, Pang ; Jixiang, Tang ; Kai, Liu
Author_Institution :
Aeronaut. Inst. of the Air Force, Xinyang, China
Abstract :
Reaching law control (RLC) is an approach to sliding mode control (SMC) design which is widely applied in the presence of model uncertainties, parameter fluctuations and external disturbances now. This paper proposes a RLC method using in DC motor discrete time speed control system and discusses the implementation problems and the robustness of the control approach in details. Since the discrete time analysis and design is more appropriate for the real applications, the design equations of RLC are derived in the discrete time. This design not only simplified the solution for SMC, but also provided a measure for the reduction of a high frequency oscillation about the desired equilibrium point. Simulation and experimental results demonstrate the effectiveness of this method, particularly for DC motor discrete time speed control system.
Keywords :
DC motors; control system analysis; control system synthesis; discrete time systems; machine control; robust control; uncertain systems; variable structure systems; velocity control; DC motor discrete time speed control system; discrete time analysis; external disturbances; frequency oscillation; model uncertainties; parameter fluctuations; reaching law control; sliding mode control design; Control system synthesis; Control systems; DC motors; Equations; Fluctuations; Frequency measurement; Robust control; Sliding mode control; Uncertainty; Velocity control; DC motors; discrete time system; reaching law control; robustness; sliding mode control;
Conference_Titel :
Intelligent Systems, 2009. GCIS '09. WRI Global Congress on
Conference_Location :
Xiamen
Print_ISBN :
978-0-7695-3571-5
DOI :
10.1109/GCIS.2009.316
